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W2255371102 startingPage "382" @default.
W2255371102 abstract "In situ assays based on feeding depression can be powerful ecotoxicological tools that can link physiological organism-level responses to population and/or community-level effects. Amphipods are traditional target species for toxicity tests due to their high sensitivity to contaminants, availability in the field and ease of handling. However, cost-effective in situ assays based on feeding depression are not yet available for amphipods that inhabit estuarine ecosystems. The aim of this work was to assess a short-term in situ assay based on postexposure feeding rates on easily quantifiable food items with an estuarine amphipod. Experiments were carried out under laboratory conditions using juvenile Echinogammarus marinus as the target individual. When 60 Artemia franciscana nauplii (as prey) were provided per individual for a period of 30 min in dark conditions, feeding rates could be easily quantified. As an endpoint, postexposure feeding inhibition in E. marinus was more sensitive to cadmium contamination than mortality. Assay calibration under field conditions demonstrated the relevance of sediment particle size in explaining individual feeding rates in uncontaminated water bodies. An evaluation of the 48-h in situ bioassay based on postexposure feeding rates indicated that it is able to discriminate between unpolluted and polluted estuarine sites. Using the harmonized protocol described here, the in situ postexposure feeding assay with E. marinus was found to be a potentially useful, cost-effective tool for assessing estuarine sediment and water quality." @default.
W2255371102 created "2016-06-24" @default.
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W2255371102 date "2016-05-01" @default.
W2255371102 modified "2023-09-22" @default.
W2255371102 title "Assessing estuarine quality: A cost-effective in situ assay with amphipods" @default.
W2255371102 cites W1565526778 @default.
W2255371102 cites W1927835688 @default.
W2255371102 cites W1967278020 @default.
W2255371102 cites W1968713439 @default.
W2255371102 cites W1970299485 @default.
W2255371102 cites W1973330433 @default.
W2255371102 cites W1974191663 @default.
W2255371102 cites W1977264370 @default.
W2255371102 cites W1978440035 @default.
W2255371102 cites W1981068764 @default.
W2255371102 cites W1986394851 @default.
W2255371102 cites W1987003524 @default.
W2255371102 cites W1990144679 @default.
W2255371102 cites W1991623101 @default.
W2255371102 cites W1992154410 @default.
W2255371102 cites W1992470765 @default.
W2255371102 cites W1994731790 @default.
W2255371102 cites W1997428983 @default.
W2255371102 cites W1998383880 @default.
W2255371102 cites W2004617594 @default.
W2255371102 cites W2005990891 @default.
W2255371102 cites W2006896117 @default.
W2255371102 cites W2008353894 @default.
W2255371102 cites W2012353341 @default.
W2255371102 cites W2012593628 @default.
W2255371102 cites W2015442155 @default.
W2255371102 cites W2020402367 @default.
W2255371102 cites W2028477736 @default.
W2255371102 cites W2030562692 @default.
W2255371102 cites W2031248033 @default.
W2255371102 cites W2033608514 @default.
W2255371102 cites W2040935231 @default.
W2255371102 cites W2041476275 @default.
W2255371102 cites W2044982113 @default.
W2255371102 cites W2054281612 @default.
W2255371102 cites W2056175439 @default.
W2255371102 cites W2058380774 @default.
W2255371102 cites W2059913144 @default.
W2255371102 cites W2060118412 @default.
W2255371102 cites W2064281959 @default.
W2255371102 cites W2066543374 @default.
W2255371102 cites W2071999240 @default.
W2255371102 cites W2074802517 @default.
W2255371102 cites W2075804596 @default.
W2255371102 cites W2077022841 @default.
W2255371102 cites W2078409523 @default.
W2255371102 cites W2079898480 @default.
W2255371102 cites W2086250905 @default.
W2255371102 cites W2089715891 @default.
W2255371102 cites W2091643186 @default.
W2255371102 cites W2091947734 @default.
W2255371102 cites W2092405439 @default.
W2255371102 cites W2092785966 @default.
W2255371102 cites W2093709815 @default.
W2255371102 cites W2102151725 @default.
W2255371102 cites W2107253044 @default.
W2255371102 cites W2111498230 @default.
W2255371102 cites W2111684210 @default.
W2255371102 cites W2119748262 @default.
W2255371102 cites W2126154792 @default.
W2255371102 cites W2138067175 @default.
W2255371102 cites W2138581178 @default.
W2255371102 cites W2141348174 @default.
W2255371102 cites W2142635246 @default.
W2255371102 cites W2143737298 @default.
W2255371102 cites W2147045908 @default.
W2255371102 cites W2156709416 @default.
W2255371102 cites W2166032709 @default.
W2255371102 cites W2166844491 @default.
W2255371102 cites W2170614906 @default.
W2255371102 cites W4241095056 @default.
W2255371102 cites W4293561651 @default.
W2255371102 doi "https://doi.org/10.1016/j.envpol.2016.01.071" @default.
W2255371102 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26874320" @default.
W2255371102 hasPublicationYear "2016" @default.
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